English

$\sin (\phi_\Lambda-\phi_S)$ azimuthal asymmetry in transversely polarized $\Lambda$ production in SIDIS within TMD factorization at EIC

High Energy Physics - Phenomenology 2021-08-25 v1

Abstract

We investigate the sin(ϕΛϕS)\sin (\phi_\Lambda-\phi_S) single-spin asymmetry in the transversely polarized Λ\Lambda production in semi-inclusive deeply inelastic scattering process within the framework of the transverse momentum dependent~(TMD) factorization. The asymmetry is contributed by the convolution of the polarizing TMD fragmentation function D1TD_{1T}^\perp of the Λ\Lambda hyperon and the unpolarized TMD distribution function f1f_1 of the target nucleon. We apply two sets of D1T,Λ/qD_{1T}^{\perp,\Lambda^\uparrow/q}, the spectator diquark model result and available parametrization, to numerically estimate the sin(ϕΛϕS)\sin (\phi_\Lambda-\phi_S) asymmetry at the kinematical region of electron ion collider (EIC). We take into account the TMD evolution effect in order to include the scale dependence of the TMD distribution functions and fragmentation functions. It is found that different sets of D1T,Λ/qD_{1T}^{\perp,\Lambda^\uparrow/q} lead to different sin(ϕΛϕS){\sin (\phi_\Lambda-\phi_S)} asymmetry, particularly in sign. Future measurements on the sin(ϕΛϕS)\sin (\phi_\Lambda-\phi_S) asymmetry with high precision at EIC can provide important cross check on the available Λ\Lambda polarizing fragmentation functions as well as constrain them more stringently.

Keywords

Cite

@article{arxiv.2104.12155,
  title  = {$\sin (\phi_\Lambda-\phi_S)$ azimuthal asymmetry in transversely polarized $\Lambda$ production in SIDIS within TMD factorization at EIC},
  author = {Hui Li and Xiaoyu Wang and Zhun Lu},
  journal= {arXiv preprint arXiv:2104.12155},
  year   = {2021}
}

Comments

11 pages, 2 figures. arXiv admin note: text overlap with arXiv:2009.07193

R2 v1 2026-06-24T01:29:43.578Z